Abstract
PurposeTelomere length is a biomarker of cellular ageing, with longer telomeres associated with longevity and reduced risk of chronic disease in older age. Consumption of a healthy diet may contribute to longevity via its impact on cellular ageing, but studies on diet and telomere length to date have been limited and their findings equivocal. The aim of this study was to examine associations between three indices of diet quality and telomere length in older men and women.MethodsAdults aged 57–68 years participating in the Wellbeing, Eating and Exercise for a Long Life (WELL) study in Victoria, Australia (n = 679), completed a postal survey including an 111-item food frequency questionnaire in 2012. Diet quality was assessed via three indices: the Dietary Guideline Index, the Recommended Food Score, and the Mediterranean Diet Score. Relative telomere length was measured by quantitative polymerase chain reaction. Associations between diet quality and telomere length were assessed using linear regression adjusted for covariates.ResultsAfter adjustment for age, sex, education, smoking, physical activity, and body mass index (BMI), there were no significant associations between diet quality and relative telomere length.ConclusionsIn a sample of older adults residing in Victoria, Australia, men and women aged 57–68 years with better-quality diets did not have longer telomeres. Further investigation in longitudinal studies will determine whether diet can influence telomere length over time in an ageing population.
Highlights
The world’s ageing population continues to increase with the number of persons aged 60 years and over expected to exceed the number of children in the world by 2045 [1]
In a sample of older adults residing in Victoria, Australia, men and women aged 57–68 years with better-quality diets did not have longer telomeres
Further investigation in longitudinal studies will determine whether diet can influence telomere length over time in an ageing population
Summary
The world’s ageing population continues to increase with the number of persons aged 60 years and over expected to exceed the number of children in the world by 2045 [1]. Diet plays a key role in maintaining health in adulthood and may impact on markers of cellular ageing such as telomere length. Telomeres are repetitive DNA sequences at the ends of eukaryotic chromosomes that undergo attrition each time a somatic cell divides [3]. They prevent loss of genomic DNA at ends of linear chromosomes and protect their physical integrity with cell division and replication, thereby protecting against cell death. Shorter telomere length is associated with decreased life expectancy and increased risk of chronic disease [4] and was recently described as one of the nine “hallmarks of ageing” [5]. As telomere attrition rate varies between individuals and is increased by inflammation and
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